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International Flights into Space: Intercosmos
International Flights into Space: Intercosmos
Living on the international space station (ISS)
Living on the international space station (ISS)
The Space Environment
The Space Environment
Living in space
Living in space
First flight man in space
First flight man in space
International flight into space
International flight into space
Space Exploration
Space Exploration
The space and natural Sciences
The space and natural Sciences
The International Space Station
The International Space Station
Outer Space
Outer Space

Life in space

1.

2.

Gravity is one of the most
fundamental forces in the
universe.
Acceleration due to gravity near
the Earth’s surface is 9.8 m/s2
this is called 1 ‘g’.

3.

Once in orbit
spacecraft and space
stations are
microgravity
environments.
As they “fall” around
the Earth astronauts
experience
weightlessness.

4.

The microgravity
environment of
space can be used by
scientists to remove
the effects of gravity
while undertaking
experiments.

5.

Life on Earth has developed
in a 1 ‘g’ environment and
many of our bodies system
rely on gravity.
The reliance of the human
body on gravity is clearly
seen when gravity is
removed.

6.

When exposed to a microgravity environment
humans experience many side effects.
Headward fluid shift or “Puffy Face” is the first
effect noticed as the absence of gravity allows
blood to move from the lower body to the head.

7.

The microgravity
environment causes a rapid
loss of bone density.
This is thought to be
caused by gravity playing a
role in the generation of
the hormones responsible
for bone growth.

8.

In the absence of
gravity muscles in
the legs and back
begin to weaken and
atrophy as they are
no longer required to
support the weight
of the astronauts.

9.

The effect of the space
environment on the brain
and nervous system is an
important area of study.
The space environment
has a large effect on the
biological clock and
sleeping patterns of
astronauts.

10.

11.

The Vestibular System maintains balance by
sending information to the brain about
position and movement by sensing gravity.
In microgravity the vestibular system
becomes confused and astronauts can
experience dizziness and space motion
sickness.
As astronauts adapt to the microgravity
environment they begin to rely on visual
sensory input for reference.

12.

Space Motion Sickness is
experienced by more than
50% of all astronauts
during their first few days
exposure to microgravity.
It results in nausea and
vomiting and is detrimental
to crew performance.

13.

The spacecraft or space
station must provide a
pressurised environment,
safe air and drinking water.
The environment must be
monitored to avoid microbial
contamination this leads to a
decrease in the astronaut’s
immune function.

14.

Astronauts are
exposed to ionizing
radiation from the sun.
The effects of
radiation are separated
into two categories:
acute and long term.

15.

The acute effects of radiation exposure are those
that are immediately seen:
◦ Nausea
◦ Vomiting
◦ Skin-reddening
◦ Dehydration
Because only moderate doses of radiation are
encountered these effects aren’t usually seen in
astronauts.

16.

The long term effects of
radiation exposure are much
more dangerous to
astronauts.
The passage of a charged
particle through a cell causes
ionisation of the cellular
structure causing cell death.
Most dangerous is the nonlethal mutation of DNA
molecules which can lead to
cancer.

17.

As human space flight moves from relatively
short term missions into long duration space
flight like the 3 year trip to Mars we must
study the effect of long term exposure to the
space environment.

18.

In order to understand the
effect of space on biology
scientists study plants and
animals in space.
This is important not only
for biological study but
also for investigating plants
for food and environmental
functions in space.
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